Dynamically Reconfigurable Optical Buffer and Multicast-Enabled Switch Fabric for Optical Packet Switching

Yeo, Yong-Kee

30 November 2006

Optical packet switching (OPS) is one of the more promising solutions for meeting the diverse needs of broadband networking applications of the future. By virtue of its small data traffic granularity as well as its nanoseconds switching speed, OPS can be used to provide connection-oriented or connectionless services for different groups of users with very different networking requirements. The optical buffer and the switch fabric are two of the most important components in an OPS router. In this research, novel designs for the optical buffer and switch fabric are proposed and experimentally demonstrated. In particular, an optical buffer that is based on a folded-path delay-line tree architecture will be discussed. This buffer is the most compact non-recirculating optical delay line buffer to date, and it uses an array of high-speed ON-OFF optical reflectors to dynamically reconfigure its delay within several nanoseconds. A major part of this research is devoted to the design and performance optimization of these high-speed reflectors. Simulations and measurements are used to compare different reflector designs as well as to determine their optimal operating conditions. Another important component in the OPS router is the switch fabric, and it is used to perform space switching for the optical packets. Optical switch fabrics are used to overcome the limitations imposed by conventional electronic switch fabrics: high power consumption and dependency on the modulation format and bit-rate of the signals. Currently, only those fabrics that are based on the broadcast-and-select architecture can provide truly non-blocking multicast services to all input ports. However, a major drawback of these fabrics is that they are implemented using a large number of optical gates based on semiconductor optical amplifiers (SOA). This results in large component count and high energy consumption. In this research, a new multicast-capable switch fabric which does not require any SOA gates is proposed. This fabric relies on a passive all-optical gate that is based on the Four-wave mixing (FWM) wavelength conversion process in a highly-nonlinear fiber. By using this new switch architecture, a significant reduction in component count can be expected.

Nonlinear fiber

Optical fiber communication

Folded-path

Four-wave mixing

Optical packet switching

Switch fabric

Optical label switching

Optical buffer

Delay line

Telecommunication Switching systems

Optical communications

Packet switching (Data transmission)

Enhanced fault recovery methods for protected traffic services in GMPLS networks

Calle Ortega, Eusebi

07 May 2004

Les noves tecnologies a la xarxa ens permeten transportar, cada cop més, grans volums d' informació i trànsit de xarxa amb diferents nivells de prioritat. En aquest escenari, on s'ofereix una millor qualitat de servei, les conseqüències d'una fallada en un enllaç o en un node esdevenen més importants. Multiprotocol Lavel Switching (MPLS), juntament amb l'extensió a MPLS generalitzat (GMPLS), proporcionen mecanismes ràpids de recuperació de fallada establint camins, Label Switch Path (LSPs), redundants per ser utilitzats com a camins alternatius. En cas de fallada podrem utilitzar aquests camins per redireccionar el trànsit. El principal objectiu d'aquesta tesi ha estat millorar alguns dels actuals mecanismes de recuperació de fallades MPLS/GMPLS, amb l'objectiu de suportar els requeriments de protecció dels serveis proporcionats per la nova Internet. Per tal de fer aquesta avaluació s'han tingut en compte alguns paràmetres de qualitat de protecció com els temps de recuperació de fallada, les pèrdues de paquets o el consum de recursos.En aquesta tesi presentem una completa revisió i comparació dels principals mètodes de recuperació de fallada basats en MPLS. Aquest anàlisi inclou els mètodes de protecció del camí (backups globals, backups inversos i protecció 1+1), els mètodes de protecció locals i els mètodes de protecció de segments. També s'ha tingut en compte l'extensió d'aquests mecanismes a les xarxes òptiques mitjançant el pla de control proporcionat per GMPLS.En una primera fase d'aquest treball, cada mètode de recuperació de fallades és analitzat sense tenir en compte restriccions de recursos o de topologia. Aquest anàlisi ens dóna una primera classificació dels millors mecanismes de protecció en termes de pèrdues de paquets i temps de recuperació. Aquest primer anàlisi no és aplicable a xarxes reals. Per tal de tenir en compte aquest nou escenari, en una segona fase, s'analitzen els algorismes d'encaminament on sí tindrem en compte aquestes limitacions i restriccions de la xarxa. Es presenten alguns dels principals algorismes d'encaminament amb qualitat de servei i alguna de les principals propostes d'encaminament per xarxes MPLS. La majoria dels actual algorismes d'encaminament no tenen en compte l'establiment de rutes alternatives o utilitzen els mateixos objectius per seleccionar els camins de treball i els de protecció. Per millorar el nivell de protecció introduïm i formalitzem dos nous conceptes: la Probabilitat de fallada de la xarxa i l'Impacte de fallada. Un anàlisi de la xarxa a nivell físic proporciona un primer element per avaluar el nivell de protecció en termes de fiabilitat i disponibilitat de la xarxa. Formalitzem l'impacte d'una fallada, quant a la degradació de la qualitat de servei (en termes de retard i pèrdues de paquets). Expliquem la nostra proposta per reduir la probabilitat de fallada i l'impacte de fallada. Per últim fem una nova definició i classificació dels serveis de xarxa segons els valors requerits de probabilitat de fallada i impacte.Un dels aspectes que destaquem dels resultats d'aquesta tesi és que els mecanismes de protecció global del camí maximitzen la fiabilitat de la xarxa, mentre que les tècniques de protecció local o de segments de xarxa minimitzen l'impacte de fallada. Per tant podem assolir mínim impacte i màxima fiabilitat aplicant protecció local a tota la xarxa, però no és una proposta escalable en termes de consum de recursos. Nosaltres proposem un mecanisme intermig, aplicant protecció de segments combinat amb el nostre model d'avaluació de la probabilitat de fallada. Resumint, aquesta tesi presenta diversos mecanismes per l'anàlisi del nivell de protecció de la xarxa. Els resultats dels models i mecanismes proposats milloren la fiabilitat i minimitzen l'impacte d'una fallada en la xarxa. / New network technology enables increasingly higher volumes of information to be carried. Various types of mission-critical, higher-priority traffic are now transported over these networks. In this scenario, when offering better quality of service, the consequences of a fault in a link or node become more pronounced. Multiprotocol Label Switching (MPLS) and the extended Generalized MPLS (GMPLS) provide fast mechanisms for recovery from failures by establishing redundant Label Switch Paths as backup paths. With these backups, traffic can always be redirected in case of failure. The main objective of this thesis is to improve some of the current MPLS/GMPLS fault recovery methods, in order to support the protection requirements of the new Internet services. Some parameters, such as fault recovery time, packet loss or resource consumption, all within the scope of this quality of protection, are considered. In this thesis a review and detailed comparison of the MPLS fault recovery methods are presented. Path protection methods (global backups, reverse backups and 1+1 methods), as well as segment protection and local methods are included in this analysis. The extension of these mechanisms to optical networks using GMPLS control plane is also taken into account.In the first phase MPLS fault recovery methods are analyzed without taking into account resource or network topology constraints. This analysis reported a first classification of the best protection methods in terms of packet loss and recovery time. This first analysis cannot be applied to real networks. In real networks, bandwidth or network topology constraints can force a change in the a priori optimal protection choice. In this new scenario, current routing algorithms must be analyzed. The main aspects of the QoS routing methods are introduced, and some of these mechanisms are described and compared. QoS routing algorithms do not include protection as a main objective and, moreover, the same QoS objectives for selecting the working path are used for selecting the backup path. In order to evaluate the quality of protection, two novel concepts are introduced and analyzed: the network failure probability and the failure impact. The physical network provides an initial value of the network protection level in terms of network reliability and availability. A proposal to evaluate network reliability is introduced, and a formulation to calculate the failure impact (the QoS degradation in terms of packet loss and delay) is presented. A proposal to reduce the failure probability and failure impact as well as the enhancement of some current routing algorithms in order to achieve better protection are explained. A review of the traffic services protection requirements and a new classification, based on the failure probability and failure impact values, is also provided in this work.Results show that path protection schemes improve network reliability. Segment/local protection schemes reduce the network failure impact. Minimum impact with maximum reliability can be achieved using local protection throughout the entire network. However, it is not scalable in terms of resource consumption. In this case our failure probability evaluation model can be used to minimize the required resources. Results demonstrate the reduction of the failure impact combining segment protection and our network reliability evaluation model in different network scenarios.In summary, an in-depth analysis is carried out and a formulation to evaluate the network protection level is presented. This evaluation is based on network reliability maximization and failure impact reduction in terms of QoS degradation. A scalable proposal in terms of resource consumption, detailed and experimentally analyzed, offers the required level of protection in different network scenarios for different traffic services.

Fault management

QoS routing algorithms

Gestió de errores

Algorismes d'encaminament

Path protection

Protección del camino

Algorismos de encaminamiento

Protecció del camí

Gestió de fallades

MPLS/GMPLS

004

68

Estudo de algoritmos RWA em redes GMPLS sobre DWDM

Feres, Mariana Massimino

08 June 2009

Made available in DSpace on 2016-06-02T19:05:45Z (GMT). No. of bitstreams: 1 3190.pdf: 9507279 bytes, checksum: 8c55bfbb567b6057f6f56e7a27fb7164 (MD5) Previous issue date: 2009-06-08 / Financiadora de Estudos e Projetos / The increase in the number of users and the emergence of sophisticated network applications motivate the research to improve the data-communication technologies, and thus to meet the requirement for bandwidth. In optical networks, one of the main advances is wavelength division multiplexing (WDM). An essential issue in designing of optical networks is how the network will be controlled, that is, which type of signaling will be used for resources reservation, routing and wavelength assigning, and how physical impairments will be dealfish. This implies in the necessity of several devices to guarantee the good functioning of the network. The diversity and complexity of administration of these devices stimulate the creation of GMPLS (Generalized Multiprotocol Label Switching), in order to provide control, for domains not only based on packages (as it makes the MPLS - Multiprotocol Label Switching), but also on time slots, wavelength and fiber. However, the labels switching on the wavelength multiplexing can generate a NP-complete problem involving the routing and wavelength assignment: if both do no succeed, the connection blocking will occur with and loss of network performance. Another relevant question is that, in all-optical networks, there is some physical impairment that influence the blocking probability e must be taken in consideration in algorithms RWA. This work presents the study of the control plan GMPLS and RWA algorithms for the setting up of connections in alloptical WDM networks. Moreover, the study of two physical impairments (polarization mode dispersion and optical signal noise rate) was done, inserting them in RWA algorithm to reduce the blocking probability due them. The results had shown that the MostUsed algorithm has better performance than the BestFit and the Random one when considered the connection blocking due to resources (lambdas). Moreover, the use of impairments-aware algorithms influence significantly in the reduction of the blocking probability. Therefore, the more advantageous performance was observed in the use of impairment-aware algorithms simultaneously with the MostUsed algorithm. / O aumento de usuários e o surgimento de aplicações de redes sofisticadas impulsionam as pesquisas para aprimorar as tecnologias de transmissão de dados, e assim suprir a exigência por largura de banda. Em redes ópticas, um dos principais avanços é o surgimento da multiplexação de comprimento de onda (WDM). Desta forma, uma questão essencial no projeto de redes ópticas compreende na definição de como a rede será controlada, isto é, qual tipo de sinalização será utilizado para reserva de recursos, definição de rotas, tratamento de falhas, entre outras funções formadoras do plano de controle. Isso implica na necessidade de diversos dispositivos para garantir o bom funcionamento da rede. A diversidade e complexidade de administração desses dispositivos incentivam a criação do GMPLS (Generalized Multiprotocol Label Switching), a fim de prover controle, não somente para domínios baseados em pacotes (como faz o MPLS - Multiprotocol Label Switching), mas também em tempo, comprimento de onda e fibra. Porém, a comutação de rótulos sobre a multiplexação de comprimento de onda pode gerar um problema NP-Completo envolvendo o roteamento e a associação de comprimento de onda, uma vez que se ambas não obtiverem sucesso, ocorrerá o bloqueio da conexão e perda de desempenho da rede. Outra questão relevante é que, em redes totalmente ópticas, existem problemas inerentes da camada física os que influenciam na probabilidade de bloqueio e devem ser levados em consideração em algoritmos RWA (roteamento por associação de comprimento de onda). O presente trabalho realiza o estudo do plano de controle GMPLS e de algoritmos RWA para o estabelecimento de conexões em redes WDM transparentes. Além disso, é feito um estudo de duas restrições da camada física (dispersão por modo de polarização e relação sinal ruído óptica) inserindo-as no algoritmo RWA para diminuir a probabilidade de bloqueio devido a elas. Os resultados mostraram que o algoritmo MostUsed possui melhor desempenho em relação ao BestFit e ao Random quando considerado bloqueio por falta de recursos (lambdas). Além disso, o uso de algoritmos cientes de restrições da camada física influencia significamente na diminuição da probabilidade de bloqueio. Portanto, o melhor desempenho foi observado no uso de algoritmos cientes de restrições físicas juntamente com o algoritmo MostUsed.

Redes de computação

Redes ópticas transparentes

WDM

GMPLS e RWA

All-optical networks

WDM

GMPLS e RWA

Pokročilé možnosti technologie MPLS / Advanced features of MPLS technology

Vlček, Martin

January 2009

Tato práce se zabývá technologií Multiprotocol Label Switching a to zejména moderními metodami, které je možné použít v rámci této technolologie. Jako příklad lze uvést využití podpory kvality služeb při směrování. V práci jsou navrhnuty a simulovány různé topologie a scénáře, které ověřují možnosti využití MPLS v podpoře kvality služeb.

Intelligent based Packet Scheduling Scheme using Internet Protocol/Multi-Protocol Label Switching (IP/MPLS) Technology for 5G. Design and Investigation of Bandwidth Management Technique for Service-Aware Traffic Engineering using Internet Protocol/Multi-Protocol Label Switching (IP/MPLS) for 5G

Mustapha, Oba Z.

January 2019

Multi-Protocol Label Switching (MPLS) makes use of traffic engineering (TE) techniques and a variety of protocols to establish pre-determined highly efficient routes in Wide Area Network (WAN). Unlike IP networks in which routing decision has to be made through header analysis on a hop-by-hop basis, MPLS makes use of a short bit sequence that indicates the forwarding equivalence class (FEC) of a packet and utilises a predefined routing table to handle packets of a specific FEC type. Thus header analysis of packets is not required, resulting in lower latency. In addition, packets of similar characteristics can be routed in a consistent manner. For example, packets carrying real-time information can be routed to low latency paths across the networks. Thus the key success to MPLS is to efficiently control and distribute the bandwidth available between applications across the networks. A lot of research effort on bandwidth management in MPLS networks has already been devoted in the past. However, with the imminent roll out of 5G, MPLS is seen as a key technology for mobile backhaul. To cope with the 5G demands of rich, context aware and multimedia-based user applications, more efficient bandwidth management solutions need to be derived. This thesis focuses on the design of bandwidth management algorithms, more specifically QoS scheduling, in MPLS network for 5G mobile backhaul. The aim is to ensure the reliability and the speed of packet transfer across the network. As 5G is expected to greatly improve the user experience with innovative and high quality services, users’ perceived quality of service (QoS) needs to be taken into account when deriving such bandwidth management solutions. QoS expectation from users are often subjective and vague. Thus this thesis proposes the use of fuzzy logic based solution to provide service aware and user-centric bandwidth management in order to satisfy requirements imposed by the network and users. Unfortunately, the disadvantage of fuzzy logic is scalability since dependable fuzzy rules and membership functions increase when the complexity of being modelled increases. To resolve this issue, this thesis proposes the use of neuro-fuzzy to solicit interpretable IF-THEN rules.The algorithms are implemented and tested through NS2 and Matlab simulations. The performance of the algorithms are evaluated and compared with other conventional algorithms in terms of average throughput, delay, reliability, cost, packet loss ratio, and utilization rate. Simulation results show that the neuro-fuzzy based algorithm perform better than fuzzy and other conventional packet scheduling algorithms using IP and IP over MPLS technologies. / Tertiary Education Trust Fund (TETFUND)

Bandwidth management

Packet scheduling

Internet Protocol (IP)

Multi-Protocol Label Switching (MPLS)

Fuzzy algorithm

Neuro-fuzzy algorithm

Quality of Service

Packet Processing Algorithm (PPA)

Traffic engineering (TE)

Weighted Fair Queuing (WFQ)

Aplica??o do m?todo MACBETH para subsidiar migra??o de plataforma tecnol?gica de redes de Telecomunica??es / Application of MACBETH method to support telecommunication network migration to MPLS

Assolari, Ana Cristina Pereira de Pedrosa

11 February 2011

Made available in DSpace on 2016-04-04T18:31:31Z (GMT). No. of bitstreams: 1 Ana Cristina Pereira de P Assolari.pdf: 1062992 bytes, checksum: 86b8f894fb835cd2496911a4689155b6 (MD5) Previous issue date: 2011-02-11 / IT and Telecommunication Managers need to be on top of rnarket trends so they rnay proceed to necessary changes and improvement on their network in order to keep up with business challenges and ensure the future of the cornpany, The decision making related to network migration should not be rnade without a consistent and reliable method that would support the decision taken, protecting the managers and companies from risks and losses. This paper has the objective to propose the usage of multicriteria decision making methodology, with focus on the MACBETH method in arder to support the network migration, based on information extracted from the financiai reports published on the public internet. This paper will show the study of two companies that have m igrated to MPLS in the last five years, buildlng the MACBETH Model from information present on the Financiai Report at the time of contract was signed and validating the information extracted with executives from the commercial and technical departments who lived through that period in the company. Within this scenario it can be verified that MACBETH Method once provided with the correct information that reflects the period the cornpany is living rnay help executives to decide if they should migrate ar not migrate their network / Gestores de telecomunica??es e TI precisam estar sempre atentos aos rumos da organiza??o e com isso procederem a mudan?as necess?rias nas estruturas e redes de comunica??o que subsidiam os neg?cios da empresa. A tomada de decis?o a respeito da migra??o de tecnologias n?o dever ser efetuada sem um m?todo consistente que as subsidie, livrando o gestor de riscos e preju?zos empresariais que podem ser minjmizados quando uma abordagem estruturada elencando os principais crit?rios a serem considerados ? utilizada. Este trabalho tem como objetivo propor o uso de metodologia para tomada de decis?o multicrit?rio, com foco no m?todo MACBETH, para subsidiar a migra??o de plataformas de redes de telecomunica??es. Com base em informa??es oriundas de boletins financeiros disponibilizados publicamente na Internet. O trabalho analisa duas empresas que migraram para plataforma MPLS, construindo a estrutura do m?todo MACBETH a partir das informa??es obtidas nos boletins financeiros dessas organiza??es e validando a an?lise com dados obtidos de gerentes das ?reas comerciais e de tecnologias que vivenciaram esse per?odo. Dentro desse quadro, considerou-se que o m?todo MACBETH, uma vez alimentado com informa??es corretas que reflitam o momento da empresa, pode orientar gestores a decidirem se devem ou n?o proceder ? migra??o de suas bases tecnol?gicas

tomada de decis?o multicrit?rio

MACBETH

inova??o tecnol?gica

competitividade

TI - tecnologia da informa??o

MPLS - multiprotocol label switching

decision making

multicriteria

MACBETH

technological innovation

competitively

IT-information technology

MPLS-multiprotocol l

abel switching

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA